Yarn processing apparatus



June 23, 1942. -A. L. E WING YARN PROCESSIfiG APPARATUS Filed May 10, l94l 7 Sheets-Sheet 1 JICEIIZ mum I I: I:

[l I: I:

'55 INVENT A/V/n L. Ew

ATTORNEY June 23, 1942. 4 L. EWING ,517 YARN raocEss-me'nnnuus Filed May 10, 1 941 7 Sheets-Sheet s Alvin LEW/n INVENTO BY%QM ATTORNEY Jfine' 23, 1 42. A} L, EWING 2,287,517

Y ARN PROCESSING APPARATUS Filedll ay 1o, 194i 7 Sheets-Sh eet'4 ATTORNEY All 1n Jime 23, l942.

A. L. EWING YARN PROCESSING APPARATUS Filed May 10, 1941 7 Sheets-Sheet 5 ATTORNEY June 23', 1342. A. L. EWING YARN PROCESSING" APPARATUS 7 Sheets Sheet 6 Filed May 10, 1941 A/v/b LEW/213g INVENTO ATTORNEY June 23,1942. A. L. EWING YARN rnocassme APPARATUS 7 Sheets-Sheet 7 Filed May 10, 1941 A/v/n L. Eta/I2 1 INVENTO ATTORNEY Patented June23, v Y

UNITED: 1 ;orr cE rsau twi s: I I 2 Alvin L. Ewing, Richmond, va.. ten 1- ont de Nemours& Company, Wilmington,

Deli, a eorporation of Delaware Application May 10, 1941, Serlal'No 392,3'l3

' h 18 claims-- (01. 242-53) This invention relates to yarnj'p'rocesslng apparatus. More particularly, it relates to a continuously rotating yarn storing and advancing reel. I

Continuously operating yarn storing and ad vancing reels have been known heretofore, for

Patents Nos. 1,938,221, and 2,210,914. Such reels are customarily used in the-liquid treatment'and drying of yarns in so-called continuous spin- Figure 6' is a sectional view taken along the line 6-401 Figure2. Figure! is asectionalview taken along the line 'i| of Figure 2.

Figure '8 is a sectional view taken along the line 8-8 of Figure '2.

example, .the reels disclosed in United States in ning processes," 1. e., processes in which the yarn is spun from a filament-forming solution, subjected to a liquid purification treatment, dried, and wound in a salablepackage in a continuous operation. s

The continuously operating yam storing and advancing reels known heretofore were not entirely satisfactory in their operation, for. example, by reason of rapid wear,'inefficicnt thread advance, variation in tension on the yarn, limiter;- tion to length of reel, high maintenance cost, etc.

It is, therefore, an object of the present invention to provide a yarn storing and advancing reel of improved construction which will overcome some of the objectionable characteristics of previously known reels of this type.

- It is a further object of thisjinvention to prooperated by the advancing yarn.

Figure 9 is a sectional .view taken along the line 9-9'of Figure 2.

details of construction of cam groove and cam followers.

Figure 1.3 is a diagrammatic view showing the paths of'movement of ayarn advancing member.

Figure 14 is a side elevational view, with parts broken away, of the yarn actuated yarn severing means of the present invention.

Figure 151s a side elevational view of the means shownin Figure 14 with the severing knives in operative position.

Figure 16 is an end elevational view of the v means shown-in Figure 14.

Y vide a yarn storing and advancing reel with a yarn severing mechanism which is automatically Other objects of the invention will .appear' hereinafter.

These objects are accomplished, in general, by the use of a reel in which yarn advancing is ifected by means of longitudinally and radially moving blades acted upon by a cam system which yarn along its length.

The present invention will be more easily uncontrols the longitudinal and radial motion of derstood by reference to the following detailed description when taken in connection with the accompanying illustrations, in which:

Figure 1 is a side elevational view, with parts shown in section, of a thread storing and advancing. reel constructed in accordance with the present invention.

Figure 2 is a side elevational'view, with certain parts cut away, of the thread advancing mechanism shown in Figure 1.

Figure 3 is a side elevational view, similar to Figure 2 but with the cam-turned 180 from the position of the cam in Figure 2.

Figure 4 is a side elevational view of the thread advancing mechanism, with sufficient parts cut away to show the operating detail of a single pair of thread advancing members.

Figure 5 is a side elevational view similar to Figure 4 but with cam positionadvanced 90.

Figure 1,! is an end elevational view of a modified form' of' yarn advancing members.

Figure 18 is a diagrammatic illustration of a modifiedform of construction of thread advance ing members. I

Figurev 19 is a sectional view of a modified form ,of mounting of yarn advancing members.

Figure 20 is a sectional view of still another modified form of mounting of yarn advancing members.

I Figuresg2l, 22, and 23 are diagrammatic development views of alternate forms of cam grooves.

Referring now to Figure 1, reference numeral 3| designates the main frame of yarn storing and advancing apparatus. A counter shaft 33 is journaled in two uprights of the frame 3|. A

.drive motor 31 is also mountedon said frame.

A pinion gear 39 is positioned on the motor shaft to drive gear 4| fixed on one end of counter shaft 33. A main-reel driveshaft 35 is alsojournaled in two upright members of frame 3|. The shaft 35 is driven from counter shaft 33 by means of gears and t5 fixedon said shafts. A cam 41 is rotatablyimounted on shaft 35 and is fixed to gear 49. The latter is driven by gear 5| fixed on shaft 33. w The cam drive gear ratio is different,

(preferably lower, as shown,) from the drive gear ratio of-the shaft 35. By rotation of the counter shaft, therefore, the main shaft 35 is rotated at a faster rotational speed than the cam 41 and gear 49. 7

Four draw rods 51, 59, iii and 63are connected respectively to cam followers 55,51, 59 and 1|. The cam followers are positioned in two oppositely disposed pairs (59, 1| and 55, 51) in cam groove 53. The draw rods 51, 59 BI .and 53 are positioned in a guide block 55, which is fixed to shaft 35, and rotate therewith. As the draw rods are rotated with the guide block 55,. they maintain the followers in the above-said paired relationship in the cam groove 53.

The opposite ends of draw rods 51, 59, 5| and 53 are connected respectively to header disks 15, 11, 13 and 19. The header disks are centered on drive shaft 35 and are reciprocated along said shaft by the respective draw rods.

Each of the header disks is connected to a plurality of blade actuator bars. Disk 15 is connected to a plurality of blade actuator bars 83 (eight as shown). Disk 11 is connected to blade actuator bars 85; disk 13 to blade actuator bars 8|; and disk 19 to blade actuator bars 81. The blade actuator bars will, of course, be reciprocate by the header disks.

A plurality of pairs of yarn advancing blades 9|, 93 (eight pairs as shown) is circumferentially arranged about the drive shaft 35. The pairs of blades 9|, 93 are positioned in spaced slots in the guide disks 94, and are supported and radially and longitudinally reciprocated by the blade actuator bars 8|, 83, 85, and 81. The actuator bars, guide disks and blades are rotated as a unit with the drive shaft 35. n

A plurality of separate yarns 95 is spun by passing a filament-forming solution from conduit 91 through spinnerets 99 and into the coagulating bath in trough I8I. The yarns are passed from the coagulating bath around fixed guide pins I83, and thence about the yarn advancing blades. The pins I83 function to maintain the yarns separated from each other on the advancing blades. As the yarn is advanced it is treated with liquids from perforated pans I3I, I33 and I35 which are supplied by therespective conduits I31, I39 and MI, The treating liquid as it drips from the yarn and reel is caught in the respective catch pans I45, I41 and I49. The advancing yarn next passes under a hot air blower I43 where it is suitably dried.

The yarn ends must be fastened to the yarn reel, for example. by entangling the yarn ends with the succeeding yarn helices, when the operation is first started in order to cause the yarn therefore, caused to oscillate by the rotating cylindrical cam |I8.- Theother end of lever III is provided with a slot I22. A pin 1 positioned on traverse bar I, projects through the slot I22. The traverse bar, which is slidably positioned in two spaced openings in the frame 3| is thus caused to reciprocate by the oscillating lever II5.

Referring now to Figures 2 to 10 inclusive, the details of construction and actuation of the yarn advancing blades will be more clearly set forth. As above stated the sixteen yarn advancing blades shown are arranged in eight pairs of blades 9| and 93. All of the blades 93 are connected at their ends, by means of connecting links 88 to blade actuating bars 81 to be recip-,

rocated thereby. longitudinally of shaft 35. All of the blades 9| are similarly connected at theirends by means of connecting links 98 to blade actuating'bars 83 to similarly reciprocate longitudinally of shaft 35. The reciprocating blade actuating bars 8| and 85 are positioned substantially along the full length of the blades, and

are supported in guide disks 94 as shown in Figends to continue to rotate with the reel. Con- Q which rotate with the yarn advancing blades willforward the yarn ends to suction funnel 248. The

suction funnel 248 will continue to draw the continuous yarns thereinto .without further contact the pin bracket I85, thence between pins I81 of traverse arm I89 and finally about rotating bob- III to form a yarn package I I3.

fTh'e' bobbin III is rotated by means of counter' I23 which is journaled in theframe 3|. shaft I 23 is driven by means of belt I ;21jand pulleys I25 and I29 positioned respectivecounter shafts I23 and 33. Counter shaft 28;i' s also provided with a cylinder cam III. A follower fixed on lever H5 is positioned in -I;he'cam groove|28. One end of the lever H5 is -with the knife blades. The separate, individual yarns may now be passed between the pins I85 of ures 2,3 and 10. Bars 8| are positioned radially inwardly of blades 93, and bars 85 are positioned radially inwardly of blades 9|. All of the blades 93 are connected to their respective bars 8| by means-of two shortlinks 82, and blades 9| are similarly connected to bars 85 by links 84 (see Figures 4, 5 and 10). The reciprocationof bars 8| and 85 relative to bars 83 and 81, therefore, imparts a radial reciprocation of the blades linked thereto. Figures 6 to 9 inclusive show the relative arrangement of the blade actuator bars 8|, 83, 85 and 81, as well as the draw rods 51, 59, 5| and 53 in the header disks 13, 15, 11 and 18. The frame member 3Ia and the'bearing 388 rotatable therein, shown in Figures 2 and 3, comprise an alternative supporting structure when it is desired to have a cantilever type support. In this case the drive shaft will not be supported at its end projecting from the blades.

Figures 11 and 12 show in cross-section and perspective the detail of the cam 41, cam groove 53, cam followers 55, 51, 59 and 1| and guide block 55. As shown in Figure 11, the guide block 55 is keyed to drive shaft 35 to rotate therewith.

The draw rods, of which 51 and 5| are shown,

suitable Journal in support 8Ia as shown. As

above stated, this is an alternative form of supporting structure and will'be omitted when the shaft 35 is supported at its two extreme ends as shown in Figure 1. Figure 12 shows paired arrangement of the cam followers in the cam groove 53 as above referred to with reference to Figure1.

through gears'39 and u.

drives the main reel shaft 35 through gears 43 The above-described follows:

,The motor 31 drives the counter shaft 33 The counter shaft mechanism operates as the lower gear ratio, the cam 41 is rotated at a lower rotational speed than drive shaft 35 there- .to a fixed base at I 2|. The lever III is, (5 by causing the cam followers to move in the cam position, and then to groove 53, and thus, reciprocating the draw rods 61, 69, Hand 63. The draw rods reciprocate the header disks '13, 1s, 11 and 19, which in turn left (see Figure 12). Consequently, disk 15 and bars 83 Will move to the right while disk TI and bars 85 will still move a slight distance to the left before reversing direction and following disk 15 and bars 83 in the right-hand direction. This slight movement of bars 83 and 85 relative to each other will cause a straigthening of the links 84 shown in Figure 4 to the position of these links shown in Figure 5. All the yarn advancing blades ill will thereby be forced radially outward. At identically the same time, follower 1i will just begin to move to the left while follower 69 will still move a slight distance to the right and then follow the follower 68 to the left. Consequently, disk 19 and bars 81 will just begin to move to the left and-disk 13 and bars 8i will move a slight distance to the right and then reversing direction follow disk 19 and bars 81 to the left. This slight relative movement between bars 81 and bars 8i will cause the links 82 to be Figure 4 to their angular positionas shown in Figure 5. All the'yarn advancing blades 93 will thereby be forced radially inward.- No w,'as the followers 65 and 61 continue to move together to the right, the blades 8| will be moved to the reversal in direction of followers to first move the respective links into the position shown in Figure 4 and then move the blades in the opposite direction with the links maintained in the position shown in Figure 4.

Figure 13 illustrates the continued cyclical movement of all the blades. First, they will move to the radially outward position shown by A, then to the right, then to the radially inward the left. One of each pair of blades BI, 83 is always moving to the right and when moving in this direction, it is in'the I radially outward position and is therefore carrying the yarn. When moving back to its lefthand position, the blade will be in the radially inward position and out of contact of the yarn.

Obviously, the use of the terms left and. "righ as used in the specification, is not limi-i tative of the invention, but is merely illustrative to correspond with the form and construction of the apparatus specifically illustrated.

As the blades comprising the reel rotate about the shaft 35 and simultaneously reciprocate longitudinally andradially of the shaft 35,- the .yam will be advanced in helices along the reel;

as illustrated in Figure 1, the yarn moves left to right. The yarn, during its advancement along the reel, may be subjected to a series of liquid treatments, for example, a desulfuring treatment, a bleaching treatment, a washing treatment, treatment with ayarn finish or the moved from their vertical position as-shown in oted member ,2l4. Member 214 is pivoted at like. The yarn is then dried by' means of hot air, or the like, and then wound into salable packages. If desired, the yarn may be twisted in a-known manner before being wound on to the package.

When the yarn ends are first brought in contact with the yarn advancing blades of 'the reel, they will be wrapped about the reel in such a manner that they will continue to rotate with the reel until they reachthe other end of the latter. As the-wrapped yarn ends approach the extreme end of the reel in their advancement, they will pass between the knives 288 and 226 of a' yarn severing mechanism. The advancement of theyam will automatically cause the knives to be actuated to sever the yarn and carry the same to the suction funnel 248 in a' manner. described .below. The yarn will then automatically continue to pass to the funnel without being further severed. The individual yarns can then be threaded on to the bobbin HI at the leisure of the operator.

The ya'rn severing and dofiing mechanism is illustrated in Figures l4, l5 and i6 and comprises a supporting frame 288 fastened to drive shaft to rotate therewith. The supporting frame comprises a rigid member 282 projecting radially from the shaft 35, across-bar 284 and a sleeve 286. A knife 288, provided with a shearing groove 289 on one end thereof, is slidably positioned in sleeve 286. The other .end of the knife has a bore 2l8 into which is fitted the ball knuckle 2i2 on the projectingend of a pivthe other end-to cross-bar 284 by a pivot pin I 2l6. Member 2l4 is provided with a slot H8 in moved 180 inthe cam groove, there will be a 7 the body thereof. A pin228 fastened to a projecting finger of the pivoted knife member 222 is positioned within slot 2i8. Knife member 222 is pivoted at 224 to member 282. Knife blade 228 is positioned on member 222 to engage knife blade 288.. A latching member 228 is pivoted at one end to member 222 below the knife blade 226. The other end of latching member 228 is provided with a slot 238. A guide pin 232 fastened to cross-bar 284 projects through slot 238.

A yarn actuated latch finger 234 projects through a small opening in cross-bar 284. One end 238 of latch finger 234 is bent to fit against shoulder 248 on latching member .228. A spring 236 is positioned between finger 234 and cross-bar 284 to force the end 238 of the finger against shoulder 248 when the knife is in the open position.

The other end of finger 234 is positioned to project into the path of the advancing yarn helices. The opposite end of knife member 222 is provided with an extension 242 at the end of which is positioned a knife resetting button 244. A coil tension spring H5 is positioned between extension 242 and cross-bar 284. Spring 2l5 is 1: adapted to force the two knife blades into shearing contact with each other upon actuation of blade 288 to the left as the blades contact each other thereby to impart a double shearing action to the knife blades. It will be noted that the knife blades 226 and 283 comprise interengaging tongue and groove members (see Figure 16). On both sides of said tongue and groove members, the knives are provided with shoulders which hold the severed yarn ends, and by rotating with the shaft 35 forward the severed severing and dofiing mechanism has rotated 180 from the position shown in Figure 16, the resetting button contacts the resetting cam I to open and reset the knives, and'to release the yarn ends to suction funnel 2. Upon resetting of the knife blades, the blade I" will be retracted,du'e' to the sliding motion imparted thereto. Knife blade I" will, therefore, have no further contact or interference with the advancing yarn helices which are passing into suction funnel Ill,

The severing and dofling mechanism operates as follows: The entire mechanism rotates with the reel. As the yarn gradually moves in helices toward the right, it will push the latch finger 234 to the right, against the action of spring 236, until latching elements 238 and 2" are released from each other. Main spring 2l5 will now force lmife 220 against knife 208 while knife 208 is simultaneously moved longitudinally of knife 226 thereby shearing the yarn helices. The shoulders adjacent the tongue and groove sections of the knives hold the severed ends' of the yarn and transfer the same to the suction funnel 1. When the severing device approaches the funnel the yarn is released and the knives reset by the coaction of the resetting button 2 and cam 24. The knives after being reset are automatically latched in position by latching elements 2'30 and 240 which are brought into engagement by means of spring 236, Y

The yarn, after being once severed and the ends transferred to the suction funnel 248, will continue to be drawn into the funnel without being further severed. The yarn ends can now be individually removed from the funnel and threaded between guides I05 and I0! and on to the takeup bobbin III at the convenience of the operator.

Figure 17 illustrates a reel comprising a slightly modified form of yarn advancing blades 9| a and These blades 'are made thicker and provided with rounded edges to prevent any possible injury to the finest denier filaments.

Figure 18 illustrates a series of yarn advance ing blades which are successively tapered along their lengths to allow for yarn shrinkage. The

length of the taper X of each blade may be made equal to the length of the blade reciprocation stroke so that, in one reciprocation cycle, the yarn is moved over the tapered portion of only one, or possibly two blades. Such a gradual taper will assist in evening out tension variationsalong the reel due to progressive yarn shrinkage.

. Figure 19 shows, diagrammatically,-'the blade movement construction and arrangement of the detailed apparatus above described.

Figure 20 discloses, in a similar fashion, a

modified blade movement construction. In this modified construction, two blades are moved simultaneously in the same direction bya single blade actuating bar. By this general construction, the number of bars necessary to reciprocate placed 185 beyond the other point of reversal instead of18'0.' That is,-the advancing section of the cam is 185 long and the retracting'section is 175. This development is made to insure the maintenance orthe circumference of the reel; that is, it prevents the loss of circularity of the reel as the blades pass each other. If an unsymmetrical cam, such as this one is used, the eifect will be, ascaneasilybeseenby astudyof the principles involved, that the yarn is carried on both blades for a short time. The length of this time depends on the amount by which the cam is unsymmetrical.- The cam" can be made even more unsymmetrical if desired. For example, if one leg of the cam track (the leg which is responsible for the advancing motion) is 260 long and the retracting leg of the cam is long,

both blades will be extended of the time. That is, the yarn will be carried by both blades for of the advancing stroke.

Other types of;cam paths may be advantageously used for special circumstances. Forexample, in Figure 22 is shown the development 'of a cam having six legs instead of two of'the example. If this type of cam is used with a reel employing four cam followers, as that shown in the example, the blades will go through three times as many cycles with a given gear ratio as they would with the two-leggedtypeof 0r advantageously. the gearing may be changed to.

give the same number of cycles as would be provided by a two-legged cam and the cam may. thus, be run slower with attendant reduction of wear.- with the type of cam of Figure 22, the number of cam followers and blades may be increased, thus giving greater support to the yarn. If a cam, whose development is shown in Figure 23, is used, certain advantages are obtained. It

will easily be seen that with this type of cam the.

blades will collapse more quickly at the point of reversal. This will avoid drag on the yarn with attendant advan ages.

The. apparatus of this invention has been described in terms of a specific embodiment but it will be well understood that numerous modifications are possible within the scope of the in length of each longitudinal stroke. A convenient size for this throw is one-half inch, but this may be made greater or less depending on circumstances. In general, as the number of yarn ends to be processed-at a-given'timeis increased, the throw of the cam should also beiiicreased. Conveniently, 10 to 25 ends may be processed simultaneously. but it is quite possible within the scope of the invention to process any, number from one up to whatever number can easil behandled by the'collectionmeans.

In the example illustrated; the treating liquid wasapplied in them by ,means of a dripv process. Sometimes it would be more advantageous to apply this treatment in the form of a spray or mist. It is of advantage so to the adiacentturns of yarn thattbe processing liquids will form a continuous sheet obliquid 'byfthe operatlon of surface tension.

Theparts of thisapparatus may be made of any convenient material of construction to withstand the eflect of the processing liquids, .as well asthe corrosive activity of the newly-coasula ed yarn. Advantageously, the blades may bemade in sections each section being of a material oi tension throughout each revolution of'the reel.

construction calculated-to withstand best the processing treatment in that part of the reel. This reel has been shown to be constructed in such a manner that the driving end of the reel is at an. end opposite that of the coagulating bath. This is advantageous since-thus the acid coagulating bath is kept well away from the drlving mechanism, but any other arrangement will operate satisfactorily. A convenient modification is to have the driving mechanism at the center and with a reel at each end, each reel being 'a complete-processing unit. These reels may be of the cantilever variety so. as to obtain the convenience of an open end. Thus, the newlycoagulated yarn will wind ,on to the reel atthe end and will advance inwardly toward the drying means and the dofiin'g arrangement.

In theapparatus shown, it was found con venient to use eight pairs of blades for carrying the yarn; however,this number may be changed to suit the necessities of any particular problem.

Two reels of different rates of advancement per revolution working in conjunction may be advantageously employed in accordance with this invention. These reels may be placed end to end so that the yarn will transfer automatically from one to another. The yarn may first be advanced and processed on the one of small advancement and then transferred to the "one of larger advancement, to spread out the'turns of yarn for any convenient. purpose, such as drying? The drying may be performed either by the use of a duct, as is shown in the drawing, or

by enclosing the drying section of the reel with a heated chamber as shown in United States Patent No. 1,983,221. Another convenient method of drying is to employ a hollow shaft through which'warm air is forced through perforations in the shaft at the drying section. Radial disks may be placed around the shaft at each end- .of the drying section to seal it oh.

Although any convenient speed is operative with the apparatus of this invention, it is found that 3,000 inches per minute is a convenient rate of yarn travel for this apparatus.

, Although this yarn storing, yarn advancin reel has been particularlydescribed withreference to the production of viscose j rayon yarn,

its uses are not so limited. This reel can advantageously be used for any purpose where yarn storage concurrent with yarn advancement is of value. For example, this reel is found of utility in the evaporative spinning of cellulose derivative yarn. It is of value in the spinning of cellulose acetate yarn when placed directly beyond the spinning machine to store and advanceyarn while the stored yarn is heatedto remove the last traces of solvent. It-is ofuse in any of the textile arts for the application-of size .to a yarn. It is of particular utility when it is wished to apply the size and then to allow the size to dry' before it is wound up. This 'reel may also be used advantageously for the application of size to those types of yarn in which it is desired that the sized yarn be maintained in a moist condition for a considerable" time before drying. Similarly, there are many places in the yarn art where considerable lengths of yarn need to be handled'in a small space. i

It will easily'be seen that the use of a reel of this type presents considerable advantages over the prior art practice. The yarn, when passing along this reel, is subjected to the same reel.

' 4. A yarn processing reel comprising two sets Since the two sets of-blades in this real have 1 a common center, wear will be uniform around spacing between adjacent turns of yarn and for any speed of advancement. However, one of the greatest advantages of thereel of this invention is that it maybe made any convenient length and may, thus, be used to subject the yarn'to any desired number-of processing steps, any of which may be of any desired duration.

Since it is obvious that many changes-and modifications can be made in the above-described details without departing from the nature and spirit of the invention, it is to be understood that the invention is not to be limited to the details described herein except as set forth in the ap-- pended claims.

I claim: I

l. A yam processing reeLcomprisingtWo sets a of yarn carryingbars, the bars of one of said,

sets disposed alternately between the bars of the other of said sets, the bars of said setsmovable axially and radially relative to the other of said sets whereby to advance the yarn helically along the reel, a yarn severing mechanism positioned adjacent one end of said reel and an actuating means for said yarn severing mech- .anism, said actuating means positioned in the path of said helically advancing' yarn whereby the advancing yarn will actuate said severing mechanism to' sever one or more courses of the helically advancing yarn.

. 2. A yarn processing reel comprising two sets of yarn carrying bars, the bars of one of said sets disposed alternately between the bars. of the other of said sets, the bars of said sets movable axially and radially relative to the other of said sets whereby to advance the yarn helically along the reel, a yarn severing mechanism positioned between yarn carrying bars adjacent one end of said reel and an actuating means for said yarn severing mechanism, said actuating meanspositioned in the path of said helic y advancing yarn whereby the advancing yarn will actuate said severing mechanism tb sever one or more courses of the helically advancing yarn.

3. A yarn processing reel comprising two sets of yarn carrying bars, the bars of one of said sets disposed alternately between the bars of the other of said sets, the bars of said sets movable axially and radially relative to the other of said sets whereby to advance the yarn helically along the reel, and a yarn actuated yarn severing mechamsm positioned adjacent one end'of said of yarn carrying bars, the bars of one of said sets disposed alternately between the bars-oi the other of said sets, the bars of said sets'moyable axially and radially relative to the other of said sets whereby to advance the yarn helically along the reel, a yarn severing mechanism fixed on one end of. said reel, said mechanism including coopcrating yarn severing elements, said severing element positioned between yarn carrying bars and an actuating means for said yarn severingmechamsm, sa d actuating means positioned in yarn advancing on saidreel.

6. A thread processing reel comprising a-plurality of pairs of thread carrying bars, means for rotating all of said bars as a unit about a common axis,- a cylindrical grooved cam. a plurality of cam followers positioned in said cam groove, linkage means connecting one of each pair of thread carrying bars to one of said followers whereby to 'simultaneouslyreciprocate said bars axially of said common axis, linkage means con- 7 necting the same one of each pair of thread carrying bars to another of said followers whereby to simultaneously reciprocate said bars. radially of said common axis linkage means connecting the other' of'each pair of thread carrying bars to a third and fourth of said cam followers to simultaneously reciprocate said bars axially by one of 'saidfollowers and radially by the other of said followers, said followers arranged in said cam groove to continually move one of each pair of bars in a direction opposite to the movement of the other of said bars. A

7. A yarn processing reel as defined in claim 6 and comprising a reciprocable cross-head between each of said c'am followers andoone of each pair of thread carrying bars.

8. 'A thread processing reel as defined in claim 6 and in which each of said linkage means comprises a recip'rocable cross-head connected to a cam'foll'ower and connected to one-of each pair of thread carrying bars.

9. A thread processing reel asdefined in claim 6 and in which each of said linkage means com-' 13. A yarn processing reel as defined in claim 11 in which one of said yarn severingelements is positioned on the outside of the helically advancing yarn and the other of said elements is positioned on the inside of the helically advancing yarn, and means for forcing said inside positioned element against said outside positioned element to sever said yarn.

14. A yarn processing reel as defined in claim 11 in which one of said yarn severing elements ispositioned on the outside of the helically advancing yarn and the other of said elements is positioned on the inside of the helically advancing yarn, and spring means for forcing saidinside positioned element against said outside positioned element to sever saidyarn. I

15. A yarn processing'reel as defined in claim 11 in which one of said yarn severing elements is positioned on the outside of thehelically advancing yarn and the other of said elements is positioned on the inside of the helically advanc ing yarn, spring means for forcing said inside positioned element against 'said outside positioned element to sever said yarn, and means for simultaneously moving said outside positioned element longitudinally of said other element whereby to impart a shearing cut to said severing elements.

16. A yarn processing me] as defined in claim 11 in which one of said yarn severing elements prises a reciprocable cross-head connected by means of 'a bar to a cam follower and connected by'means of' a bar and a pivoted link to one of each pair of thread carrying bars.

I0. A thread processing reel as defined in claim 6 and in which the slope of said cam groove is substantially constant whereby to impart substantially uniform speed reciprocating movements-to said carrying bars.

a 11. A yarn processing reel comprising two sets of yarn carrying bars,means for rotating all of said bars; asa unit-- about a common shaft, the bars of one ofsaid sets disposed alternately between the bars of the other of said sets, the bars of saidsets movable axially and radially rela tive to the other of said.sets whereby to advance the yarn helically along the reel, is yarn severing mechanism, means for mounting said yarn severing mechanism on said common shaft, said I yarn severing mechanism comprising cooperating yarn severing elements, said elements positioned between the said yarn carrying bars and an actu- I ating means for said yarn severing mechanism, said actuating means-positioned in the path ofsaidhelically advancing yarnwhereby the advancing yarn will actuate said severing mechanism. to sever one or more courses of the helicallyadvancirig yarn. V r v 12. A yarn p reel as'defined in claim 11 in which one of said yarn severing elements is positioned on the outside of the helically advancing" yarn and the other positioned on-the ingyarn.

of said elements is inside of thc helically advancis positioned on the outside of the helically ad-' vancing-yam and the other of said elements is positioned on the inside of the helically advancing yarn, spring means tending to force said elements 'against each other, cooperating latching 4 members for holding said severing elements in separated relationship, one of said cooperating latching members pomtioned in the path of said helically' advancing yarn whereby said advancing yarn will unlatch said latching members to actuate said severing elements.

1'7. A yarn processin reel as defined in claim 11 in which once! said yarn severing elements is positioned on the outside of the helically advancing yarn and the other of said elements is positioned on the inside of the helically advancing yarmspring means tending to force said elements against each other, cooperating latching members for holding said severing elements in separated relationship, one of said cooperating latching members positioned inthe path of said helically advancin yarn whereby said advancing yarn will unlatch said latching members to actuate said severing elements, and means for relatching said latching members upon rotation of said reel.

18. A yarn processing reelas defined in claim -11 in which one of said yarn severing elements is positioned on the outside of the helically advancing yarn and the other of\ said elements is positioned on the inside of the helically advanci s-yam, spring means force said elements againsteachother, c neratin latcmng members for holding said severing elements in relationship, one cooperating latchingmembers positioned in the'path of said helically advancing yarn wherebysaid advancing yarn willlmlatcli saidlatching members to actu-' ate said severing elements, and cam and cam follower mans for'relatchingsaidlatchmg members upon rotation of said L. EWING. 

